Difference between revisions of "2018 IMO Problems/Problem 2"
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<cmath>a_1^2 + a_2^2 + ... + a_4^2 – a_1 a_2 – a_2 a_3 – a_3 a_4 – a_1 a_4 = 0.</cmath> | <cmath>a_1^2 + a_2^2 + ... + a_4^2 – a_1 a_2 – a_2 a_3 – a_3 a_4 – a_1 a_4 = 0.</cmath> | ||
It is known that this expression is doubled | It is known that this expression is doubled | ||
− | + | <cmath>(a_1 – a_2)^2 + (a_2 – a_3)^2 + ... + (a_4 – a_1)^2 = 0 \implies a_1 = a_2 = a_3 = a_4 .</cmath> | |
Substituting into any of the initial equations, we obtain the equation <math>a_1^2 + 1 = a_1,</math> which does not have real roots. Hence, there are no such real numbers. | Substituting into any of the initial equations, we obtain the equation <math>a_1^2 + 1 = a_1,</math> which does not have real roots. Hence, there are no such real numbers. |
Revision as of 01:52, 16 August 2022
Find all numbers for which there exists real numbers satisfying and for
Solution
We find at least one series of real numbers for for each and we prove that if then the series does not exist.
Case 1
Let We get system of equations
We subtract the first equation from the second and get: So
Case 1'
Let Real numbers satisfying and .
Case 2
Let We get system of equations We multiply each equation by the number on the right-hand side and get: We multiply each equation by a number that precedes a pair of product numbers in a given sequence So we multiply the equation with product by , we multiply the equation with product by etc. We get: We add all the equations of the first system, and all the equations of the second system. The sum of the left parts are the same! It includes the sum of all the numbers and the sum of the triples of consecutive numbers Hence, the sums of the right parts are equal, that is, It is known that this expression is doubled Substituting into any of the initial equations, we obtain the equation which does not have real roots. Hence, there are no such real numbers.